共查询到20条相似文献,搜索用时 93 毫秒
1.
重力垂直梯度异常反应了重力异常的空间变化率,在地球物理勘探等多学科中得到越来越多的应用。利用南海局部区域实测重力异常数据和Sandwell测高重力异常数据,将搜索范围、距离和精度多种因素融合考虑并对Shepard算法进行改进,给出了南海局部区域(19°N~20.5°N,114°E~115.5°E)分辨率1'×1'的重力异常并反演了对应分辨率的重力垂直梯度异常。结果表明,基于Shepard改进算法的高精度船测重力和测高重力的有机融合,增强了单一测高重力数据反演重力垂直梯度异常的细节纹理,提高了反演重力垂直梯度异常的分辨率和精度。 相似文献
2.
收集了中德合作调查的SO49-18测线北段地震剖面和水深数据,结合区域的声呐浮标、OBS和双船折射等成果信息,利用重力数据,采用LCT综合反演软件,对南海北部的地壳结构进行重震联合模拟,建立了初始2.5维地球物理模型,并由该模型计算出正演理论空间重力异常曲线.同时,采用匹配滤波技术对实测空间重力异常的不同深度异常进行分离,并与计算空间重力异常曲线进行比较,在物性参数合理的范围内逐层进行模型修饰,使计算与实测空间重力异常曲线相吻合,建立了地壳结构初始深度模型.结果显示,南海北部地壳结构总的特点是:从陆架到陆坡,地壳厚度不断减薄,呈连续阶梯状变化,上地壳厚度较小,下地壳厚度较大;北部洋陆过渡带,莫霍面埋深急剧变浅;西北次海盆地壳厚度(莫霍面埋深)较薄;中沙海台,地壳厚度相对较大. 相似文献
3.
由刘元龙和王谦身提出的用于反演重力资料以估算地壳构造的压缩质面法,是用二维方柱体来近似地质体,而为了得到反演问题的解,又将二维方柱体近似地表示为压缩质面,使矩阵分析方法得到实际应用。利用这种压缩质面法,可根据实测重力异常资料反演莫霍界面的分布,而在已知几层密度差异的条件下,还可反演多层密度界面,(如莫霍界面和康腊界面)的分布。 相似文献
4.
《海洋地质与第四纪地质》2014,(5)
台湾地区空间重力异常幅值在-240~340mGal之间变化,布格重力异常幅值在-140~380mGal之间变化,重力异常及圈闭走向呈现北东、北北东向。将小波分析方法引入台湾地区的重力异常数据处理,经过分析比对,台湾地区布格重力异常小波分析三阶逼近结果代表莫霍面起伏形态,利用重力数据反演了深部界面莫霍面,研究区莫霍面深度为12~32km,莫霍面展布呈现北东走向,台湾岛区莫霍面深,在24~31km之间变化,由西北往东南为厚-薄-厚分布,台湾东部海区莫霍面深度浅,在12~17km之间变化,台湾岛属于陆壳结构,靠近菲律宾海的台湾岛外海地区,属于海洋性地壳结构。 相似文献
5.
三大洋中脊的重力异常及构造意义 总被引:1,自引:0,他引:1
本文根据中国第三次南极考察暨首次环球重力调查实测的重力资料,对太平洋、大西洋和印度洋三大洋中脊的重力异常特征及构造意义进行了较深入的研究和探讨。结果表明,构造活动强烈的世界三大洋中脊系,其活动的强大外力来源为地幔的热动力。其地壳虽新,但活动历史却很久远,且已达到热动力平衡状态。洋中脊处的低幅度、短波长变化的空间异常,不能一般近似地视为均衡异常,更不能由此断定洋中脊已处于均衡状态。在洋中脊之下,海底、莫氏面及软流层界面均发生了不同程度的拍升,是影响重力异常的主要原因。 相似文献
6.
本文用重力资料反演计算了测区莫霍面埋深,试分析了影响莫霍面埋深及其展布形态的深部因素,并以莫霍面等埋深图为依据,结合重磁水深图探讨了南海地壳结构及深部构造,发现与相邻边缘海和大洋相比,南海具有莫霍面埋深浅,布格重力异常值低的特点,究其原因可能与南海复杂的构造活动和低密度地幔的存在有关。 相似文献
7.
经过三维重力正演计算,我们从台湾的布格重力异常中求得了深部重力异常,其深度相当于地壳下层。分析对比之后发现,深部重力异常等植线的形态,较好地反映了台湾的现代构造地貌特征。如东部等值线的同步弯曲,犹如错断水系,反映现代板块运动的方向;中部大面积零值和负值线圈闭,反映中央山脉的整体上升;在一些等值线聚合成梯度的地带,又往往是某些深断裂的反映。是否可以这样认为,深部重力异常是地壳深处介质密度沿某一方向的 相似文献
8.
9.
由刘元龙和王谦身提出的用于反演重力资料以估算地壳构造的压缩质面法,是用二维方柱体来近似地质体,而为了得到反演问题的解,又将二维方柱体近似地表示为压缩质面,使矩阵分析方法得到实际应用。利用这种压缩质面法,可根据实测重力异常资料反演莫霍界面的分布,而在已知几层密度差异的条件下,还可反演多层密度界面 相似文献
10.
本文基于中国南极考察第30航次、第32航次所获得的实测重力资料,结合NGDC资料,开展12个航次重力场数据的平差融合工作,全部386个交点平差后标准差减小为±1.53×10−5 m/s2,与卫星重力差值平均值为1.49×10−5 m/s2,均方差为±3.81×10−5 m/s2,并在此基础上采用频率域界面反演法计算莫霍面深度。研究发现,与沉积盆地对应重力异常低值相悖,在罗斯海北部盆地、维多利亚地盆地、中央海槽、东部盆地4个主要盆地腹地却表现为重力异常高值,跨度达100 km以上。莫霍面深度分布整体呈南深北浅之势,范围为10~28 km。伴随着罗斯海西部盆地的多次拉张及岩浆活动,该区域的地壳厚度和莫霍面深度高值和低值相间分布,并表现出越来越大的差异性。综合剖面结果表明,罗斯海重力异常值的长波长变化与莫霍面的起伏呈正相关关系,但是反演的莫霍面深度与区域重力场特征并非完全对应,所以岩浆底侵和地壳侵入仍不足以导致罗斯海盆地的重力异常或盆地几何形状。 相似文献
11.
M. E. Artemjev T. M. Babaeva V. O. Mikhailo I. E. Voydetsky 《Marine Geophysical Researches》1984,7(1-2):129-148
All anomalous masses of the Earth are reflected in the free air gravity anomalies and the geoidal undulations. The low viscosity
of the asthenosphere significantly reduces the possibility of existence of density inhomogeneities in the layer. This fact
provides some physical basis for the separation of the gravity field anomalies. It has been shown by power spectrum analysis
of the free air anomalies and gravity field of isostatically compensated model of the lithosphere for the North Atlantic and
adjacent areas of America, Europe and Mediterranean, that the attraction of isostatically compensated model is significant
for any wave length of the field. It causes significant error in the interpretation if long wavelength constituents of the
free air gravity anomalies are considered as a field of deep anomalous masses. The isostatic anomalies und isostatic geoid
are free from the influences of isostatically compensated lithosphere. The characteristic feature of the isostatic anomalies
power spectrum is a pronounced minimum at the wavelength of about 1000 km. The relative homogeneity of the asthenosphere may
explain this minimum. It means that principal density inhomogeneities of the Earth's interior are separated by the asthenospheric
layer. Such a minimum has not been observed at the power spectrum of free air anomalies being masked by corresponding wavelength
of the field of isostatically compensated lithosphere. Isostatic anomalies that reflect the differences between the real structure
of the lithosphere and its isostatically compensated model have wavelengths less than 1000 km. Isostatic anomalies with the
wavelength more than 1000 km reflect the attraction of density inhomogeneities situated under the level of isostatic compensation.
The basic features of power spectrum of isostatic anomalies are the same for oceanic and continental areas. The method based
on Kolmogorov-Wiener filtration which consideres statistical characteristics of the field has been developed to divide the
isostatic gravity anomalies into lithosphere and mantle components. For the North Atlantic and adjacent areas the field of
mantle inhomogeneities has been determined. 相似文献
12.
13.
Willem J. M. Van Der Linden 《Marine Geophysical Researches》1977,3(2):209-224
A crustal attenuation model, initially proposed to explain the evolution of the Canadian margin of the Labrador Sea, is applicable to both intra-cratonic rift zones and passive continental margins. Examples examined are the East African rifts and the New Zealand Plateau, S. W. Pacific. In the model continental lithosphere is stretched and rifted over thermally and chemically expanding asthenosphere blisters. Magmas, abundantly generated in the zone of partial melting at the lithosphere-asthenosphere boundary, ascend and intrude into the fracturing crust. Upon cooling, these intrusives produce low amplitude magnetic anomalies. Sea-floor spreading begins when the asthenosphere finally breaks through en masse and it is thus only a late phase in a much longer cycle. Attenuated continental crust is often underlain by low velocity, low density, upper mantle, which is indicative of the blending of the crust and mantle. It is suggested that substantial parts of marginal quiet magnetic zones are continent-ocean transitions that formed by crustal attenuation. The attenuation model is used to explain the evolution of the Arctic region. It should help bridge the gap between fixists and mobilists. 相似文献
14.
太平洋卫星测高重力场与地球动力学特征 总被引:6,自引:1,他引:6
通过多卫星测高数据的综合处理,获得西太平洋卫星测高重力场,进行不同尺度、深度构造动力信息的分离,探讨诸边缘海盆的地球动力学问题。测高大地水准面反映了研究区板块相互作用的特点,其高频成分可以刻画各海盆的构造特征。测高空间重力异常也可刻画陆架构造及盆地分布,由其推算出的海底地形含有大量的海底构造信息。各边缘海盆的莫霍面埋深具有往南变浅的趋势,与菲律宾海各海盆的莫霍面埋深大致相当,说明岛弧两侧的构造动力强度基本相似。大尺度地幔流应力场总体上反映了欧亚板块向东南蠕散和太平洋板块向北西扩张的特点;日本海北侧和南海巽他陆架的中尺度上地幔对流与地幔柱之间有着密切关系,西菲律宾海的上地幔对流强化了日本-琉球-台湾-菲律宾岛弧的活动强度;小尺度地幔流主要限于软流圈层内部,在各海盆分散,而在冲绳海槽和马里亚纳海槽则会聚,可与均衡重力异常类比。还讨论了大、中、小地幔流体系的特点及相互之间的关系,籍以阐明海盆及海槽演化的地球动力学过程。 相似文献
15.
南海北部陆缘位于特提斯与古太平洋两大构造域的叠合部位,构造特征十分复杂,其构造属性一直是国内外学者争论的焦点,从主动陆缘到被动陆缘,火山型被动陆缘到非火山型被动陆缘等均有表述。南海复杂的形成机制以及东、西部构造差异性所引起的地球物理、岩浆活动等认识的异同,是造成南海北部陆缘构造属性认识差异的主要原因。通过与全球典型地区的比较研究,进一步加强对南海形成演化过程分析,开展大洋钻探与多学科综合分析,揭示南海海盆的多期扩张与多盆张裂特征,是认识南海北部陆缘构造属性的关键。探讨了南海三叉裂谷张裂模式,初步认为南海第1次扩张具有非火山型被动陆缘性质,第2次扩张具有火山型陆缘性质。 相似文献
16.
东海陆架盆地南部中生代构造演化与原型盆地性质 总被引:10,自引:0,他引:10
东海陆架盆地南部夹持于欧亚板块、太平洋板块与印度板块之间,是发育在前中生代基础之上的中、新生代叠合盆地。其构造演化受古太平洋板块俯冲及特提斯-喜马拉雅构造域的联合影响,经历了印支末期基隆运动、燕山期渔山和雁荡运动的叠加改造。结合浙闽隆起带中生代火成岩事件、盆地构造变形、沉积学的一些证据,通过海陆对比研究,认为东海陆架盆地南部早-中三叠世可能为面向古太平洋的被动大陆边缘盆地;晚三叠世-侏罗纪古太平洋板块已对中国大陆有较强的俯冲作用,东海陆架盆地及南部原型盆地为活动大陆边缘弧前盆地;白垩纪受控于滨海断裂表现为活动大陆边缘走滑拉分盆地;古新世-始新世火山岛弧向东移动,东海陆架变为弧后裂谷盆地。 相似文献
17.
The application of advanced enhancement techniques for geophysical anomalies to global gravity (WGM2012) and magnetic (EMAG2) models sheds light on the complex tectonic evolution of the Rio Grande Rise (RGR) in the southern South Atlantic. Long wavelength Bouguer gravity lows indicate a thicker crust beneath of the ridge, whose nature can be related to a microcontinent or an excess of volcanism within the oceanic realm. Recently dredged continental rocks reinforce the hypothesis of a microcontinent or, at least, slivers of continental crust. However, the reserval magnetic pattern of the processed magnetic anomalies provide no evidence of aborted spreading center similar to the well-studied Jan Mayen microcontinent and the surrounding (inactive) Aegir and (active) Kolbeinsey ridges in the North Atlantic Ocean. The reversal magnetic anomalies show a series N-S trending parallel stripes roughly follow the current South American coastline and segmented by E-W oriented oceanic fracture zones (FZs). The magnetic stripes are bended eastwards at the RGR, showing a more complex magnetic pattern similar to that in the Iceland. The aborted Cruzeiro do Sul Rift (CSR) and the Jean Charcot Chain (JCC) are structures that cross the RGR and contribute to the understanding of the tectonic evolution of the South Atlantic Ocean. NW-SE oriented extensive gravity lows and bathymetric valleys, which mark the CSR, are segmented by E-W trending magnetic lineaments related to FZs. This structural configuration suggests that the extensional event, which formed the rift and the seamounts chain, was replaced by strike-slip movements along the FZs. In addition, we constructed a plate kinematic model for the evolution of the RGR based on bathymetric, free-air and Bouguer gravity and magnetic data. Our model comprises five main stages of the RGR formation and evolution between late Cretaceous and Paleocene (ca. 95 - 60 Ma), separated by published seafloor isochrones. The proposed model suggests that the RGR was built at the mid-Atlantic ridge by increased magmatism probably related to the Tristan da Cunha hotspot. 相似文献
18.
19.
印度洋无震海岭及海底高原的初步研究 总被引:1,自引:0,他引:1
根据1986年10月-1987年5月第三次南极考察和首次环球科学考察所获的印度洋实测重力资料,对印度洋一些典型构造进行了分析研究。初步主人为:无震海岭,海底高原和大洋中脊都有着复杂的壳-幔结构,其上都伴有一个布格异常的低值带,但引种布格局异常低值原因却不尽相同。虽然上述3者都是大洋中的隆起地带,但前两者的地壳增厚,莫氏丰下拱,软流圈变深,影响布格异常的主要因素是其下存在着一个较大的负山根。相反,在 相似文献
20.
The central equatorial Pacific is interesting for studying clues to upper mantle processes, as the region lacks complicating effects of continental remnants or major volcanic plateaus. In particular, the most recently produced maps of the free-air gravity field from satellite altimetry show in greater detail the previously reported lineaments west of the East Pacific Rise (EPR) that are aligned with plate motion over the mantle and originally suggested to have formed from mantle convection rolls. In contrast, the gravity field 600 km or farther west of the EPR reveals lineaments with varied orientations. Some are also parallel with plate motion over the mantle but others are sub-parallel with fracture zones or have other orientations. This region is covered by pelagic sediments reaching ~?500–600 m thickness so bathymetry is not so useful for seeking evidence for plate deformation across the lineaments. We instead use depth to basement from three seismic reflection cruises. In some segments of these seismic data crossing the lineaments, we find that the co-variation between gravity and basement depth is roughly compatible with typical densities of basement rocks (basalt, gabbro or mantle), as expected for some explanations for the lineaments (e.g., mantle convection rolls, viscous asthenospheric inter-fingering or extensional deformation). However, some other lineaments are associated with major changes in basement depth with only subtle changes in the gravity field, suggesting topography that is locally supported by varied crustal thickness. Overall, the multiple gravity lineament orientations suggest that they have multiple origins. In particular, we propose that a further asthenospheric inter-fingering instability mechanism could occur from pressure variations in the asthenosphere arising from regional topography and such a mechanism may explain some obliquely oriented gravity lineaments that have no other obvious origin. 相似文献